Ceiling fan protective cover

ABSTRACT

A ceiling fan cover that can be easily placed onto and removed from a ceiling fan to provide the fan from dust, wind, water, moisture, paint and other potentially harmful element. The cover can be constructed of a flexible or non-flexible material that contains opening and closing means that permit the cover to be placed onto and closed around said fan and then opened to remove the cover from the fan. The cover preferably is made of a material to permit its reuse.

CROSS REFERENCE TO RELATED APPLICATION

This application claims the benefits of the filing date of U.S. Provisional Application No. 61/269, filed Jul. 1, 2009, the provisional being incorporated herein by reference.

BACKGROUND OF THE INVENTION

The present invention relates to ceiling fans in general and specifically to a method and an article to protect not only the fan blades but also the entire fan assembly, including the motor and, if any, a lighting fixture.

Although ceiling fans (sometimes-referred to as overhead fans) have been known since the late 1800s, see U.S. Pat. No. 564,455, they have only recently become popular for outside use. Many problems exist for outside versus inside use. The main problem concerns the effect that the elements, e.g. moisture, rain, snow, wind, dust and the like have on the components of the fan. The elements can cause damage to the electrical and mechanical components of the fan including, most importantly, the motor. In addition, it is not only extreme natural conditions such as rain and windstorms but also the mere presence of moisture, lighter winds and dust can cause damage to the internal and external parts of the fan.

These damaging conditions can be especially troublesome when outdoor use is suspended because of seasonal use restrictions such as the closing of outdoor eating areas during cold Michigan, USA winters. Severe damage can be caused by snow, ice, wind, rain and the like. Damage is also caused by severe storms, such as hurricanes in the southern United States and dust storms such as found in Egypt and in the southern United States. Excessive free spinning of the fan blades can damage the stator, rotor, and bearings of the fan motor. This free spinning can also potentially compromise the installation and cause the fan to break away from its mount.

Attempts to resolve some these problems have focused primarily on building motors that are more rugged and sealing the motors from the elements such as moisture, using rubber sealants, o-rings, compression fittings and film wrappings. U.S. Pat. No. 5,507,619 illustrates attempts to provide water resistance for motors. It has even been suggested to manufacture outdoor overhead fans from materials like, stainless steel, titanium, and aluminum. These attempts have been somewhat successful but at the expense of driving up the cost of outdoor overheads fans. In fact, some fans are even water rated. These efforts however do not address all of the problems with using overhead fans outdoors.

The invention taught herein is directed to a simple, inexpensive method and article that address all of the problems associated with the use of outdoor overhead fans without having to change the basic design of the fan. The invention is also useful for protecting ceiling fans located indoors for example when painting, sanding and washing walls and ceilings.

BRIEF SUMMARY OF THE INVENTION

The invention is an article that can be easily used to cover and protect overhead fans, including the motor, blades, and a lighting fixture, if present on the fan. The cover can be comprised of a flexible sheet like material that is easily placed on and removed from the fan and thus can be used even for short periods such as overnight or when a sudden storm comes up. When the cover is formed of a flexible material it can be easily folded or rolled up for storage. Alternative designs such as clamshell designs will permit the use of stronger less flexible materials such as molded plastics and the like. With slight variations in its design and size, such as diameter and the like, the invention is usable on all standard ceiling fans. Most overhead fans have blade lengths ranging from about thirty-six to fifty-two inches.

The diameter of the arc inscribed when the fan is rotating can vary depending on the size of the motor, the length of the blades and the manner of attaching the blades to the rotor. They usually have three, four, or five blades but may contain more. The blades also vary in width depending on the particular manufacturer. The invention can be adapted to work with all standard ceiling fans.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

Embodiments or variations are now described by way of example with reference to the accompanying drawings. Objects, features, and advantages of inventive matter disclosed herein may be better understood by referring to the following description in conjunction with the drawings, in which the numerals indicate like structural elements and features in the various figures. The drawings are not meant to limit the scope of the invention. For clarity, not every element may be labeled in every figure. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.

FIG. 1 is a perspective view of a typical ceiling fan 10, and its basic components, comprising the fan blades 11, housing cover for the motor 12, suspending rod 13, and a decorative cover 14, for covering up the a means for affixing the fan to the ceiling 15.

FIG. 2 is a perspective view of the ceiling fan of FIG. 1 wherein a cover 20 designed according to the principles of the invention is depicted in an open position just prior to closing or removing it from the fan.

FIG. 3 is a perspective view of a cover of the invention attached to a ceiling fan and looking down from the top.

FIG. 4 is a perspective view of the cover of the invention enclosing a fan and looking up from the bottom. In this embodiment, the opening in the bottom portion runs substantially across the entire diameter of the bottom of the cover. In other embodiments, the opening in the bottom need only be long enough to permit the cover to be easily placed over the fan.

FIG. 5 is a perspective view of the cover of the invention looking up from the bottom wherein the cover has attached optional tab and eyelets 21 that afford the attachment of the cover to hooks 25 located in a ceiling or other overhead attachment arrangement such as open beams. The ties 26 permit stabilizing the fan and cover during windy conditions.

FIG. 6 is section of a cover of the invention showing the use of vents 24 to reduce the buildup of moisture inside the cover 20.

FIG. 7 is a section of the cover of the invention showing the optional addition of a flexible support rod 27 that fits in a sleeve formed at the outer perimeter of the cover. This embodiment improves the look of the cover as well as improving the wind resistance of the cover.

FIG. 8 is a sectional elevation of a cover 20 enclosing a ceiling fan containing a light fixture 28.

FIG. 9 is a sectional elevation of the cover 20 enclosing a ceiling fan that does not contain a lighting fixture.

FIG. 10 is a sectional elevation of a cover 20 enclosing a ceiling fan wherein the cover contains as an optional feature, a gathering means 29, that is used to tighten the cover against the ceiling fan to reduce the flapping of the cover in windy conditions. In this embodiment, the gathering means consists of a drawstring 31.

FIG. 11 is a sectional elevation of a cover 20 enclosing a ceiling fan wherein the cover contains as the optional gathering means 29 an elastic strap 32 that is affixed to the inside of the top and lower portion of the cover.

FIG. 12 is a section view of the cover 20 containing as an optional feature a means 23 for sealing the portion of the cover through which the suspending rod 13 extends. In this embodiment the sealing means is a Velcro brand hook and loop strap 33, that contains hooks on one side and loops on the over side so that when it is wrapped around the suspending rod it locks itself in place and seals the cover around the suspending rod.

FIG. 13 is a section view of the cover 20 containing as an optional feature a storm flap 30 that covers the means 22 for closing the cover about a ceiling fan, in this view a zipper 22.

FIGS. 14 and 15 illustrate claim shell embodiments of the cover 20 wherein the closing mean 22 in FIG. 14 is provided on the top portion as previously shown and around the perimeter of the cover. In FIG. 15 the two halves are hinged at the back and then a closing means is placed on the side opposite to the hinged portion These embodiments permit if desired, the use of non-flexible construction materials such as solid plastic, fiberglass and the like.

DETAILED DESCRIPTION OF THE INVENTION

In one embodiment the cover 20 is constructed of a material that is sufficiently flexible that it can be easily fit on an overhead fan and can be removed and rolled or folded for storing. Cotton and synthetic cloth, woven or unwoven, are suitable. Preferably, the material is water-resistant or water proof. If the material of construction of the cover 20 is essentially waterproof it is preferred that the cover 20 contain air vents such as shown in the figures as component number 24. The vent can be composed of a material that permits moisture that should happen to gather inside the cover to escape. The vents can be located on the top or bottom portion of the cover depending on the material used in the vent. If the vents are composed of a material that is water resistant, but also breathable, they can be placed on the top and or bottom portion of the cover. It is preferred to manufacture the cover or at least portions thereof (such as the vents) from a material that is water resistance but also breathable. Fabrics sold under the trade names Rhino-weave, Tron-weve and Raintite are examples of suitable fabrics. Plastic coated cotton and canvas are suitable. Polyvinyl chloride coated fabrics are further examples of suitable materials. Flexible plastic sheets such as polyvinyl chloride, polyethylene, and polycarbonate are also useful. When plastics are used it is preferred that they be laminated to a soft inner fabric such as fleece or cotton so as not to scratch the surface of the parts of the ceiling fan. Polypropylene fabrics such as described in U.S. Pat. No. 6,342,456 are especially useful. Fiberglass cloth is also useful. If a clamshell construction is used as shown in FIG. 14 and FIG. 15, non-flexible or stiffer materials of construction can be used.

The cover 20 is made employing any suitable process. If made from a fabric, panels of fabric can be cut to form a generally circular form and sewed together around the perimeter to form the disc shape cover 20. The two sections are then cut so that the top portion has an opening that equals the length of the radius of the circle and the bottom side is cut sufficiently across to permit the cover to be pulled over the fan. If desired, the bottom can be cut completely across, as shown in the FIGs. The two cuts match one another so that a closing means 22, such as a zipper can be installed to close the cover over a ceiling fan. The joined sections are then turned inside out so that the top and bottom outsides are now inside. This method places the seam around the perimeter on the inside. This improves the appearance and the water resistance of the cover. Preferably, the seams are waterproofed. Another process for manufacturing the cover is taught in the EXAMPLE. If the cover is constructed from a plastic, the seams can be glued or heat welded using techniques known in the art. The diameter of the cover 20 can be varied to match closely the diameter of the arc inscribed by the fan blades when in motion. The diameter of the cover is preferably just slightly larger than the inscribed arc. If the cover is much larger than the arc inscribed by the blades, the cover will tend to flap in heavy winds and may have a damaging effect on the ceiling fan. It will be readily apparent that other means of constructing the cover can be employed as well as other shapes. For example, the top and bottom portions may each be cut into two semi-circles and then the top and bottom portions are joined together at the perimeter except at one of the points where the closing means is to be placed. The two semicircles forming the bottom are left unattached. Only one half of the top two semicircles are attached together such as by sewing thus providing the required opening to attach the closing means 22. In another embodiment, a clamshell construction can be used. In the embodiment shown in FIG. 14, comprising a top and bottom clam shell design it is necessary to provide a slot 34 in the top portion so that it can be slipped around the suspending rod 13, The bottom portion of the shell is attached to the top portion by using any suitable closing means 22. The bottom portion may be hinged to the top portion if desired to provide a pre-assemble cover and then the remainder of the two shells closed together about a fan. Another clamshell embodiment is disclosed in FIG. 15 wherein the shell is formed with two halves, a right and a left, and the shell closes around the fan from the sides rather from the top and bottom. In FIG. 15, the two halves are hinged at the back and closed by using closing means 22 located opposite to the hinge. It should be appreciated that all of the embodiments shown and described herein are of an essentially circular design but other shapes can be employed without departing from the principles of the invention.

The closing means 22 can be made from any of a variety of systems. For example, zippers, simple ties, button and eye or button and loop, hoop and loop strips such as made under the trade name Velcro, or snaps can be employed. For covers constructed of flexible materials the closing means preferably comprises a one or two-way zipper mechanism. “Two-way” means that there are two zipper pulls and thus the cover can be closed by zippering from the top to bottom or from the bottom to top or a combination thereof. Preferably, the cover also contains as an option a storm flap 30 as shown in FIG. 13, which adds additional water resistance to the closing means 22 of the cover. In another embodiment, the cover is provided with a means 23 for sealing as tight as possible the portion of the cover through which the suspending rod 13 will extend. One embodiment of a suitable sealing means is the use of a strip of hooks and loops material that has been previously described. The strip is attached to the top portion of cover 20 at the location where the suspending rod will pass thought the top portion of the cover and is drawn up tight and wrapped around the suspending rod 13 to form a tight seal. Other means for achieving this function include for example, draw strings or elastic material sewn into the cover at the location where the suspending rod passes through.

FIGS. 2, 3, 4 and 5 show another embodiment of the invention. In this embodiment, the cover includes several means 21 for affixing a cord 26 that can then be attached to hooks 25 securely placed in the ceiling or other overhead support, such as open overhead beams of an outside patio. This permits a further securing of the fan in the event of windy conditions. In this embodiment, three tabs having eyelets (grommets) are illustrated as part 21. Other means can be used, such as positioning snap-in eyelets around the perimeter of the cover. These eyelets are similar to the metal eyelets found on tarps, tents and the like.

The cover 20 can be further modified to make it even more stable in windy conditions. FIGS. 10 and 11 illustrate the use of gathering means 29 attached to the cover in locations that match the space between the blades of a fan to gather in or pull the top and bottom portions of the cover closer together when positioned on a fan. The gathering means embodiments shown herein include the use of a drawstring arrangement 31 as shown in FIG. 10 and, as shown in FIG. 11, an elastic strap 32 that is attached on the inside of the top and bottom portions of the cover 20. The ends of the elastic strap can be attached such as by sewing the ends of the strap onto the cover essentially directly opposite from each other. Other means can be used without departing from the principles of the invention.

FIG. 7 illustrates still another view of the invention. In this embodiment a flexible rod 27, wire or the like is included around the perimeter of the cover 20 to provide a stiffening of the cover 20, which adds further strength and protection for the ceiling fan. In a preferred mode a removable flexible rod 27 made of, for example, a flexible plastic is inserted into a tunnel/channel provided on the inside or outside of the perimeter of the cover. In this preferred embodiment, the rod 27 can be inserted when the cover is in use and then removed so that the cover can be folded or rolled for storage.

To provide further protection against the elements the cover can be provided with a storm flap that covers the closing mean 22, such a zipper. This embodiment is shown in FIG. 13.

As previously discussed FIGS. 8 and 9 show section views of a cover 20 enclosing the blades 11, motor 12 and lighting fixture 28 of a ceiling fan.

EXAMPLE

A fan cover was made having a diameter of approximately 56 inches. It was made from breathable, waterproof fabric made by Kimberly Clark. Four semicircles, having the same dimensions, of material were prepared. Two of the semicircles were cut from the fabric and two were made from sections cut from the fabric and sewn on a commercial Mitsubishi sewing machine using number 92 nylon threads to make the other two semicircles. Thus, a potion of the cover contained seams resulting from piecing sections of the cloth together to form the semicircle. Two of the semicircles of the fabric were then sewn around their perimeter and likewise with the other two half circles to form portions of the top and bottom of the cover. An 84-inch plastic one-way zipper was then sewn onto the straight edges of each semicircle with the zipper closing at the length of the radius (26 inches) of the top half of the cover. Finally, the open radius length (26 inches) of the two semicircles not containing the zipper were sewn together and the assembled piece was turned inside out so that the seams did not show. An 18 by 1 inch hook and loop strip (hooks on one side and loops on the other) was then sewn to the top of the cover at the end of the seam on the top side where the zipper ended. One elastic gathering band was also sewn to opposite sides of the inside of the cover using the top seam and one side of the seam on the bottom potion formed when placing the zipper, as attachment points. The cover was easily placed over a 52-inch blade Hunter brand ceiling fan and zippered closed. The hoop and loop strap was wound around the suspending rod of the fan to provide a tight fit. The cover could also be easily removed.

Other modifications can be made to the embodiments described herein without departing from the principles of the invention. 

1. A protective cover for a ceiling fan comprising: a closable disc shaped cover having a top and a bottom and a generally circular perimeter, a closing and opening means provided in said cover said means permitting the cover to be slipped over the ceiling fan when said means is in an open position and to close said cover once in place.
 2. The cover of claim 1 wherein said closing and opening means runs essentially along the radius of the top of said cover and continues at least through the distance of the radius of the bottom side of said cover.
 3. The cover of claim 2 including a means for sealing the top of said cover at the radius end of said opening around a suspending rod of said sealing fan.
 4. The cover of claim 2 wherein the closing means runs essentially along the diameter of the bottom of the cover and essentially to the length of the diameter of the cover.
 5. The cover of claim 1 wherein said cover is constructed of a flexible material and said closing and opening means comprises a weather proof zipper.
 6. The cover of claim 5 wherein the cover includes a storm flap covering said zipper.
 7. The cover of claim 1 including at least two tab and eyelet attachments fixed at the perimeter of said cover.
 8. The cover of claim 1 constructed of an essentially non-flexible material and is essentially clam shaped.
 9. The cover of claim 8 wherein the closing and opening means comprises a hinge and a closure means across the radius on the top and along the perimeter of said cover.
 10. The cover of claim 1 including a sleeve around the perimeter of said cover.
 11. The cover of claim 1 including circulation vents provided in the bottom of said cover.
 12. The cover of claim 1 designed to cover at least the motor and the blades of said ceiling fan. 